AGEL: Is the Conflict Real? Investigating Galaxy Evolution Models Using Strong Lensing at 0.3 < z < 0.9

Author:

Sahu NandiniORCID,Tran Kim-VyORCID,Suyu Sherry H.ORCID,Shajib Anowar J.ORCID,Ertl Sebastian,Kacprzak Glenn G.ORCID,Glazebrook KarlORCID,Jones TuckerORCID,G. C. Keerthi VasanORCID,Barone Tania M.ORCID,Baker A. Makai,Skobe Hannah,Derkenne Caro,Lewis Geraint F.ORCID,Sweet Sarah M.ORCID,Lopez SebastianORCID

Abstract

Abstract Observed evolution of the total mass distribution with redshift is crucial to testing galaxy evolution theories. To measure the total mass distribution, strong gravitational lenses complement the resolved dynamical observations that are currently limited to z ≲ 0.5. Here we present the lens models for a pilot sample of seven galaxy-scale lenses from the ASTRO3D Galaxy Evolution with Lenses (AGEL) survey. The AGEL lenses, modeled using HST/WFC3-F140W images with Gravitational Lens Efficient Explorer (GLEE) software, have deflector redshifts in the range 0.3 < z defl < 0.9. Assuming a power-law density profile with slope γ, we measure the total density profile for the deflector galaxies via lens modeling. We also measure the stellar velocity dispersions (σ obs) for four lenses and obtain σ obs from SDSS-BOSS for the remaining lenses to test our lens models by comparing observed and model-predicted velocity dispersions. For the seven AGEL lenses, we measure an average density profile slope of −1.95 ± 0.09 and a γz relation that does not evolve with redshift at z < 1. Although our result is consistent with some observations and simulations, it differs from other studies at z < 1 that suggest the γz relation evolves with redshift. The apparent conflicts among observations and simulations may be due to a combination of (1) systematics in the lensing and dynamical modeling; (2) challenges in comparing observations with simulations; and (3) assuming a simple power law for the total mass distribution. By providing more lenses at z defl > 0.5, the AGEL survey will provide stronger constraints on whether the mass profiles evolve with redshift as predicted by current theoretical models.

Funder

Australian Research Council Centre of Excellence for All Sky Astrophysics in 3 Dimensions

Space Telescope Science Institute

Gordon and Betty Moore Foundation

National Science Foundation

NASA

AUSTRALIAN RESEARCH COUNCIL

ANID ∣ Fondo Nacional de Desarrollo Científico y Tecnológico

Publisher

American Astronomical Society

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